        #include <iostream.h>
        #include "Random.h"

        typedef int HugeInt;

/* START: Fig10_62.txt */
        /**
         * Method that implements the basic primality test.
         * If witness does not return 1, n is definitely composite.
         * Do this by computing a^i (mod n) and looking for
         * non-trivial square roots of 1 along the way.
         */
        HugeInt witness( const HugeInt & a, const HugeInt & i, const HugeInt & n )
        {
            if( i == 0 )
                return 1;

            HugeInt x = witness( a, i / 2, n );
            if( x == 0 )    // If n is recursively composite, stop
                return 0;

            // n is not prime if we find a non-trivial square root of 1
            HugeInt y = ( x * x ) % n;
            if( y == 1 && x != 1 && x != n - 1 )
                return 0;

            if( i % 2 != 0 )
                y = ( a * y ) % n;

            return y;
        }

        /**
         * The number of witnesses queried in randomized primality test.
         */
        const int TRIALS = 5;

        /**
         * Randomized primality test.
         * Adjust TRIALS to increase confidence level.
         * n is the number to test.
         * If return value is false, n is definitely not prime.
         * If return value is true,  n is probably prime.
         */
        bool isPrime( const HugeInt & n )
        {
            Random r;

            for( int counter = 0; counter < TRIALS; counter++ )
                if( witness( r.randomInt( 2, (int) n - 2 ), n - 1, n ) != 1 )
                    return false;

            return true;
        }

        int main( )
        {
            for( int i = 101; i < 200; i += 2 )
                if( isPrime( i ) )
                    cout << i << " is prime" << endl;

            return 0;
        }